Output Nm³/h | Rated Inlet Pressure Mpa | Rated Outlet Pressure Mpa | Rated Power KW | Volume Flow Of The Matched CO2 Generator Nm³/h | Cooling Type |
3~5 | 0.3~0.7 | 1~20 | 4.0 | 3-5 | Wind |
8~12 | 0.3~0.7 | 1~20 | 5.5~7.5 | 8-12 | Wind |
15~16 | 0.3~0.7 | 1~20 | 11 | 15-16 | Wind |
20 | 0.3~0.7 | 1~20 | 15 | 20 | Wind |
24~25 | 0.3~0.7 | 1~20 | 15 | 24-25 | Wind |
30 | 0.3~0.7 | 1~20 | 15 | 30 | Water |
40 | 0.3~0.7 | 1~20 | 15 | 40 | Water |
50 | 0.3~0.7 | 1~20 | 18.5 | 50 | Water |
60~70 | 0.3~0.7 | 1~20 | 22 | 60-70 | Water |
80~90 | 0.3~0.7 | 1~20 | 15×2 | 80-90 | Water |
110~130 | 0.3~0.7 | 1~20 | 22×2 | 110-130 | Water |
150 | 0.3~0.7 | 1~20 | 22×2 | 150 | Water |
The inlet pressure of the oil-free oxygen booster can be between 0-1.0MPa, and the outlet pressure can reach up to 20Mpa. It is suitable for various output and can be customized according to the specific requirements of customers. |
Selection principle of oil-free booster (Oxygen and nitrogen as examples)
1. Working conditions: <1>Compressed medium; <2>Inlet pressure; <3>Exhaust pressure; <4>Exhaust volume (Sometimes referring to the production volume of oxygen generator and nitrogen generator)
2. Determine the compressor model according to the working conditions
3. Common sense description
<1>Nm³/h is m³ of exhaust gas per hour under standard conditions; Nm³/min is m³ of exhaust gas per minute under standard conditions
<2>1bar=0.1Mpa≈1kgf
<3>The relationship between the flow rate in the pressure state and the flow rate in the standard state: the flow rate in the standard state = the flow rate in the pressure state × (fluid pressure + atmospheric pressure), the atmospheric pressure is usually 1 bar.